Latest Articles for Materials Science

Research reveals how lasers affect material behavior at the atomic level.

This article examines how active polymers behave in challenging solvent conditions.

A novel approach to enhance 3D EBSD data collection accuracy.

Researchers enhance data access for Metal-Organic Frameworks through a natural language interface.

Exploring the effects of strain on the magnetic properties of SrRuO.

Research on iron chains and superconductors reveals insights into Majorana zero modes.

SiEM sensors enhance detection capabilities in high-energy physics and radiation environments.

Research into chiral superconductivity reveals potential advancements in quantum materials.

New research improves yield-stress fluids for versatile applications.

A look at the fascinating behaviors of magnetic materials and their transitions.

This article examines how wormlike chains behave when confined and under tension.

This article highlights the behavior of rare-earth ditellurides in thin film applications.

New approaches improve insights into cuprate superconductors using the Emery model.

Exploring unique properties of superfluidity in two-dimensional supersolid states.

Research on samarium ferrite shows promise for future technology in magnetism.

Research reveals complexities of polymer flow behaviors and practical impacts.

Research combines Josephson junctions with topological phases for advanced technology insights.

A look into how semiflexible polymers aggregate and change form.

Machine learning enhances the search for new materials, improving stability predictions.

Exploring flatbands and their impact on electron localization and material properties.

Thermodynamic Maps improve understanding of phase transitions in complex systems.

A look at Casimir friction between atoms and graphene, exploring energy and motion.

Investigating the properties and potential of radium fluoride through advanced techniques.

FeSn displays interesting magnetic behavior and electronic interactions, revealing potential applications.

Research shows plastic deformation can create strong magnetism in SrTiO₃ materials.

Research reveals a method to detect Majorana states using an extra quantum dot.

Study reveals weak radiation induces efficient decay in helium nanodroplets.

Research reveals how liquid types influence spreading on surfaces.

Timepix3 enhances electron microscopy for detailed structural analysis.

Researchers examine the effects of palladium on charge-density waves in ErTe.

Examining how particle movement affects chemical reaction rates.

Researchers create flat Landau levels in a 3D structure made from sound waves.

The QSoC design offers a scalable approach to advancing quantum technologies.

Quantum computing enhances engineering efficiency, especially in analyzing structures and materials.

Researchers develop a technique to generate short, bright electron pulses for scientific applications.

This article explores how charges move in mica, highlighting hyperconductivity and its implications.

Study reveals critical factors affecting lipid recovery in liposome formation.

Dirac materials show promise for advanced electronics and quantum computing applications.

A novel approach uses Lindbladian dynamics for efficient ground state preparation.

Study reveals new insights into electron interactions with impurities in materials.